Agriculture Exchange

ABSTRACT

A system and method for agricultural exchange includes: one or more animal tags, each animal tag having an animal identification data and configured to be affixed to a live animal; a searchable database containing a product data for each animal tag, a seller data, and a buyer data; and a server communicably coupled to the searchable database that stores and maintains each product data in the searchable database, and receives: (1) an animal information from one or more remote devices, and stores, indexes and updates the animal data using the animal information, (2) a seller information from one or more remote devices, and stores, indexes and updates the seller data using the seller information, and (3) a buyer information from the one or more remote devices, and stores, indexes and updates the buyer data using the buyer information.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of U.S. patentapplication Ser. No. 16/105,588 filed Aug. 20, 2018, now U.S. Pat. No.10,657,339, which is a continuation application of U.S. patentapplication Ser. No. 15/480,764 filed Apr. 6, 2017, now U.S. Pat. No.10,055,621, which claims priority to U.S. Provisional Application Ser.No. 62/318,858 filed Apr. 6, 2016. The entire contents of the foregoingapplications are incorporated herein by reference.

FIELD OF THE INVENTION

The present disclosure relates to an agricultural exchange that provideslivestock tracking and sales systems.

BACKGROUND OF THE INVENTION

Livestock is often sold at live auctions. Buyers often desire moreinformation than such settings provide regarding sale items. Auctionedcattle may be sold on a per-pound basis, and the animals must be weighed(and final price set) after a sale is agreed upon.

SUMMARY OF THE INVENTION

Brief Description of the Drawings

The above and further advantages of the invention may be betterunderstood by referring to the following description in conjunction withthe accompanying drawings, in which:

FIG. 1 is a block diagram depicting selected elements of a disclosedagriculture exchange;

FIG. 2 is a block diagram of a smart chute for an agriculture exchange;

FIG. 3 is a block diagram of a cloud infrastructure for an agricultureexchange;

FIG. 4 is a block diagram of a subscriber unit related to disclosedsystems;

FIG. 5 depicts elements of a user interface for a disclosed system whichallows interactive participation with an agriculture exchange forsearching and buying livestock;

FIG. 6 is a flow diagram for providing a disclosed agriculture exchange;

FIG. 7 is a block diagram for data processing systems (e.g., processors)that interact and perform in disclosed systems to provide andparticipate in an agriculture exchange; and

FIG. 8 depicts a system for conducting an agricultural exchange.

DETAILED DESCRIPTION OF THE INVENTION

The present disclosure relates to an electronic or digital agricultureexchange ecosystem where product data is collected, processed, stored,and distributed on demand. Livestock assets are tagged (e.g., with UHFRFID ear tags or QR codes) corresponding to a universal LivestockIdentification Number (LIN for each animal). The system processes andstores animal data within a cloud-based infrastructure. Exchange usersaccess the data through smartphone, tablet, computing device, andbrowser applications in some embodiments. The exchange incorporates fulltransaction facilitation: once an animal has been marketed and sold, thesystem provides payment services (pays seller, collects from buyer, payscommissions, etc.) and coordinates transfer logistics. In addition tocreating another sales channel for livestock, the system connectsindividual animals to their data which can be archived after a transfer.By sensing the ear tag, subsequent owners of the livestock may accessall data associated with that specific animal through mobile app orbrowser-based applications. The resulting data is stored on anelectronic product data card that is completely portable and designed tointerface through standard API with a variety of industry datasolutions. The data follows the animal through its entire lifecycle.Included data begins with an initial photo, ear tag ID, weight, date andtime of collection. Optionally a product data card includes vaccinationrecords, medical treatment, or general condition/comments. This databecomes associated with the LIN and is available to subsequentparticipants in the supply chain, providing a clearinghouse of productdata.

An end-user (e.g., a rancher, buyer, seller) m some embodimentsinteracts with the agriculture exchange through a service provider. Anexample service provider is a company that interacts directly withbuyers and sellers through a subscription or fee-based arrangement. Insome scenarios, an agriculture exchange operator provides multiple(e.g., competing) service providers with proprietary hardware andsoftware for facilitating aspects of disclosed systems for theirrespective customers. For example, a service provider is provided ahardware/software package for processing animal data at facilities likeranches, stockyards, or auction houses. An example hardware packageincludes a single-animal squeeze chute which is equipped to weigh theanimal, detect the RFID or QR code ear tag, and wirelessly (e.g.,Bluetooth) transmit acquired data to a provided smartphone. The RFID orQR code ear tag may be applied to the animal when it first enters thesqueeze chute to be weighed. and processed. After an animal is eartagged, additional data may be captured on group scales, trailers,working pens or corrals. In some embodiments, animal data (e.g.,measured weight) is collected and accessed by ranchers to performinventory or monitor the performance of their herd. Such data could alsobe used by financial institutions to monitor collateral on loans and soforth.

Livestock and animals in some embodiments use RFID based ear tags (e.g.,UHF RFID tags) to identify, track, and process animals. RFID isabbreviated from radio-frequency identification and includes technologythat uses electromagnetic fields to automatically identify and tracktags that are attached to the animals. RFID tags may be passive tags oractive tags. When using passive tags, an RFID reader (a.k.a.,interrogator) emits radio waves. The passive tag collects energy fromthe emitted radio waves and generates a signal with ID information.Active tags include a local power source such as a battery and mayoperate at relatively greater distances (e.g., hundreds of yards away).RFID tags may be ear tags or may be implanted in an animal.

Livestock and animals are, additionally or alternatively, processed insome embodiments with QR codes on ear tags. QR code is abbreviated fromQuick Response Code and is a type of two dimensional (e.g., matrix)barcode. Such barcodes are machine readable through optical technology.In some embodiments, the codes include a square grid on a whitebackground. The codes can be read by an imaging device such as a cameraand processed until the code's image can be accurately interpreted bysoftware. The QR code can be a prominent portion of the ear tag foreasier reading from a greater distance. A prominent QR tag can bescanned at a much greater distance and is instantly recognizable as a QRcode.

Disclosed embodiments are described in the context of several patentfigures. FIG. 1 illustrates agriculture exchange 100. As shown,agriculture exchange 100 includes cloud infrastructure 106, whichprovides users of agriculture exchange 100 with virtualized computingresources (e.g., storage, searching, computing) over the Internet (i.e.,in the cloud). Agriculture exchange 100 includes service provider 108,which may be part of a network (e.g., plurality) of service providers.Livestock owners access the agriculture exchange 100 directly or throughservice provider 108. Service provider 108 may lease (from theagriculture exchange) and maintain integrated software and hardwarepackages for collecting animal data. For example, a service provider maylease smart chute 114 with data acquisition hardware including scale 116and biometric/records module 120. Likewise, a service provider (e.g.,service provider 108) may license client application 112 for use withany smartphone as part of the data collection portion of agricultureexchange 100.

Larger farm animals (e.g., cattle or horses) are separated and processedusing chutes. Chutes are commonly made of a strongly built stall or cagewhich can hold the animals safely while they are examined, tagged, ortreated. Disclosed embodiments include smart chute 114, which includesscale 116 and biometric/records module 120. Scale 116 weighs an animal.Biometric/records module 120 provides additional information on ananimal. Module 120 includes a keyboard for manual entry of suchinformation. Alternatively, or in addition, module 120 includes sensorsfor measuring ambient air temperature, body temperature, blood pressure,body density, lean mass sensor, fat sensor, water percentage sensor, andthe like. In some embodiments, module 120 includes an RFID tag or QRcode reader for automatically determining the livestock identificationnumber (e.g. identification number 104) associated with an animal.Module 120 then stores the information automatically obtained fromanimals as they pass through smart chute 114. Smart chute 114 mayinclude a camera (not depicted) for photographing livestock from one ormore angles.

An operator processes animals through smart chute 114 using subscriberunit 110 to capture and record data related to each animal. Subscriberunit 110, in one embodiment, is a smartphone running client application112. The subscriber unit, in addition to allowing for capturing andprocessing animal data, permits a user access to access data fromagriculture exchange 100. Camera 118 takes one or more photographs of ananimal, and in some embodiments is enabled for detecting heat signatures(e.g., through IR photography) given off by an animal for furtherdocumenting animal health. The data is captured and stored in cloudinfrastructure 106.

In FIG. 1, client application 112 communicates wirelessly with RFID orQR code tag 102. RFID or QR code tag 102 includes the LIN, which is aunique livestock ID number for an animal. Client application 112 iscommunicatively coupled to smart chute 114 and receives weight dataassociated with a particular LIN.

The user of subscriber unit 110 photographs the animal utilizing theintegral camera 118. In addition to hardware generated data (e.g.,measured data from smart chute 114 including scale 116 andbiometric/records module 120), client application 112 acts as thecollection point for product owner data, location, and time. Subscriberunit 110 in turn passes the data to cloud infrastructure 106 via anInternet connection (e.g., over Wi-Fi or cellular). Subscriber unit 110passes the data in some embodiments through service provider 108. In theevent there is no Internet connection, client application 112 enablessubscriber unit 110 to gather data, store it, and seamlessly upload itto the cloud when Internet connectivity is restored. This helps tocontinue operations in remote areas where Internet connectivity isunavailable. Client application 112 also allows the operator to assemblemarketing lots from animal data collected and place them for sale.

As shown in FIG. 1, agriculture exchange 100 includes buyer interface122. Buyer interface 122 includes web server 124 that in someembodiments provides a mobile friendly web application or works withnative mobile applications (e.g., on Android or iOS platforms) onsmartphones. Buyer interface 122 and web server 124 provide for thecollection of buyer information including banking information forbid-enabled accounts. The interface further allows buyers to search,view and bid on livestock. The bid entry process requires enteringdelivery instructions for cattle should a buyer win. In someembodiments, buyer interface 122 interacts with multiple remote devices(e.g., computers and smartphones) to cause bidding to closesimultaneously on each device. Buyer interface 122 also facilitatesprivate contract sales (e.g., one buyer and one seller) at an agreedprice.

In some embodiments of the agriculture exchange, service providerscoordinate with livestock owners to run cattle through smart chutes,which as described are equipped for collecting, storing, andtransmitting data associated with the animals. When an animal isprocessed, a subscriber unit running a client application collects andforwards data to centralized systems (e.g., cloud infrastructure 106possibly through service provider 108). The specialized equipment readsthe LIN and the weight of the animal and automatically associates thedata together via a smart phone app such as client application 112). Inthe embodiment shown in FIG. 1, service provider 108 uses data collectedby the system to market livestock on a digital buyer interface (e.g.,buyer interface 122). In some embodiments, sellers or buyers pay a salescommission and delivery fee once cattle are sold. Pricing can beauction-based, indexed, fixed, or negotiated. In some embodiments ofagriculture exchange 100, service providers act as independentcontractors and lease equipment from the agriculture exchange operator(e.g., owner). Compensation to service providers (e.g., service provider108) may include a sales commission distributed automatically via buyerinterface 122.

FIG. 2 depicts additional details for a smart chute (e.g., smart chute114 in FIG. 1). As shown, smart chute 200 includes isolation unit 201.Isolation unit 201 includes a panel, gate, alley or similar element forisolating an animal for processing. Isolation unit 201 may include anautomatic gate, hydraulic cylinders, or similar mechanical apparatus forseparating an animal after detection by optional detection unit 217(e.g., infrared sensor, weight sensor, laser sensors, etc.). Weightmeasure unit 203 is veterinary-grade scale for measuring weight in largeanimals. Weight measure unit 203 can be placed within smart chute 200 asneeded or may be integrated into it.

As shown, smart chute 200 further includes tag reader 205 for readingRFID or QR tag 102 (FIG. 1). Tag reader 205 and RFID or QR tag 102communicate via radio waves or light waves. RFID or QR tag 102 containsa QR code or integrated circuit and an antenna used to transmit data totag reader 205 (which acts as an interrogator). Smart chute 200optionally includes biometrics module 207. Biometrics unit 207 receivesanimal data from transducers (e.g., sensors) that measures animalcharacteristics such as animal temperature, ambient temperature,ultrasound images, magnetic resonance images, animal blood pressure, andso on. Optional camera 211 automatically photographs the animal. Camera211 may include multiple sensors for photographing the front, top,sides, and back of the animal. Animal data is collected and processed byprocessing unit 215.

Storage module 213 consists of an SSD, hard drive, memory card, RAM,ROM, or the like and stores animal data. Smart chute 200 communicatesstored data or data streamed in real time with subscriber unit 110 (FIG.1). Smart chute 200 is enabled for communicating to cloud infrastructure106 (FIG. 1), in some cases, through service provider 108 (FIG. 1). Suchcommunication occurs through data transfer module 209, which comprises aBluetooth module, Wi-Fi module, cellular module, near fieldcommunication (NFC) module, and/or wired connection.

In FIG. 2, biometrics module 207 may include two-dimensional orthree-dimensional scanner technology for measuring physicalcharacteristics (e.g., height, volume, etc.) of an animal. In someembodiments, processing unit 215 analyzes received biometric data (e.g.from biometrics module 207) and transforms the data for display asgraphical representations, numerical representations, graphicalcomparisons, numerical comparisons, and so on. For example, processingunit 215 includes machine instructions to process ultrasound data frombiometrics module 207 and transform the data into a resulting fatcontent measurement, lean muscle content measurement, body mass indexnumber, or the like. Processing unit 215 may further include machineinstructions to process 2-D scan data, 3-D scan data, or camera data togenerate a 3-D image of the animal that can be virtually rotated andstudied. In some embodiments, scan data from multiple animals isprocessed, transformed, and displayed simultaneously to compare the sizeor characteristics of two animals against one another (e.g., on display126 of FIG. 1).

FIG. 3 is a block diagram of cloud infrastructure 300, which isidentical to or similar to cloud infrastructure 106 (FIG. 1). Cloudinfrastructure 300 provides an Internet-based platform with scalabledata storage and processing resources. Users (service providers, buyers,sellers, administrators, ranchers, lenders) of agriculture exchange 100(FIG. 1) access cloud infrastructure 300 for storing, accessing, andsearching data related to products or other users. For example, apotential buyer can search for a seller or a particular animal. Thebuyer can search based on a price, location, score, or other criteria.Access to cloud infrastructure 300 in some embodiments is providedthrough a service provider (e.g., service provider 108 in FIG. 1).Buy/sell services module 302 facilitates buying and selling of animals.In some embodiments, a potential buyer uses search services module 342to search for a particular animal. The buyer enters search criteriathrough web server 312. In turn, search services module 342 accessesdatabase 344 for relevant animal data. Database 344 includes productdata card 346 stored within animal data 322. Product data card 346includes searchable information (e.g., age, breed, species, location,color, temperament, notes, size, etc.) related to a particular animal.Buy/sell services module 302 handles auction services and takes bidsfrom potential buyers. Buy/sell services module 302, in someembodiments, communicates with multiple end user devices (e.g., smartphones, computers) through Web server 312 to update users simultaneouslyand close an auction simultaneously across all devices.

Payment services module 304 facilitates payment for animals. Paymentservices module 304 accesses and updates payment data 334 with accountinformation for buyers, sellers, service providers, vendors, and so on.Shipping services module 306 accesses and updates shipping data 332 forbuyers and sellers. Shipping services module 306 accesses third-partyvendor information and provides shipping estimates prior to the close ofan auction, for example. Optionally, the system can automaticallyinclude estimated shipping costs (for a particular buyer) when rankinganimals for the buyer.

Cloud infrastructure 300 stores exchange data in database 344. Asdiscussed, cloud infrastructure 300 receives this data through datareception module 314 from service providers, buyers, sellers, orvendors. A service provider or end user accesses the data (e.g., animaldata, buyer data, seller data) through data server 308.

Data server 308 accesses database 344 for exchange information. As anexample, seller data 324 includes searchable information for animalsellers. Likewise, buyer data 326 includes relevant information for pastand prospective buyers of animals. Vendor data 328 includes informationrelated to auctioneers, veterinarians, shippers, or handlers. Shippingdata 332 includes third-party shipping rates. Payment data 334 includesaccount information (e.g., bank routing numbers, wiring information) forbuyers, sellers, service providers, and vendors.

The agriculture exchange may facilitate the sale or lease of specializedequipment (e.g., smart chute 200 in FIG. 2 or subscriber unit 400 inFIG. 4. Lease services module 316 facilitates and manages the lease ofthis proprietary equipment. Lease data 336 stores data related tohardware such as identification numbers and maintenance records forequipment. Commission services module 318 calculates and payscommissions to service providers, shippers, auctioneers, animalhandlers, or other vendors. Archive data 338 includes stored data fromanimals, equipment, past transactions, and the like.

The various modules (e.g., buy/sell services module 302) in cloudinfrastructure 300 comprise or access hardware and software resources(e.g., machine-readable instructions executing on one or moreprocessors) for supporting the disclosed tasks. Cloud infrastructure 300is accessible by Internet-enabled devices such as smartphones andcomputers. These devices run on myriad platforms (e.g., iOS™, Android™,Linux™, MAC-OS™, Windows™, etc.) that interact with communication module340. In some embodiments, API Server 310 facilitates access with thesedevices, including through third party web servers operated by serviceproviders. Web server 312 interacts with web-enabled subscriber units tofacilitate the services provided by cloud infrastructure 300. Forexample, web server 312 facilitates buy/sell services, payment services,shipping services, and the like.

FIG. 4 is a block diagram of subscriber unit 400, which is identical toor similar to subscriber unit 110 in FIG. 1. Subscriber unit 400 may bea smart phone, tablet, or other personal computing device. In onescenario, a rancher uses subscriber unit 400 when processing an animalto be sold through the market place. Subscriber unit 400 is a handhelddevice that reads the RFID tag or QR code for the animal, takes aphotograph of the animal, and provides a date/time stamp for theinformation. Tag reader 417 communicates through reflected light (e.g.,QR code readers), radio signals or NFC technology with animal tags(e.g., RFID or QR code tag 102 in FIG. 1). Subscriber unit 400 alsocommunicates with smart chute 114 (FIG. 1) or smart chute 200 (FIG. 2)to process animal data or exchange data with cloud infrastructure 300(FIG. 3). The rancher or a service provider captures the data, storesthe data, and uploads the data through an Internet connection in someembodiments.

As shown, subscriber unit 400 includes processor 401 which performs withoperating system 403, applications 413, and other modules to achieve thedescribed functionality. Input module 419 receives keyboard or spokeninput related to an animal or the seller. In the above scenario, therancher types or speaks notes related to an animal through input module419. Input module 419 receives, processes, and stores data in ananimal's product data card (e.g., product data card 346 in FIG. 3).

Clock/calendar 409 provides a time/date stamp for data collected bysubscriber unit 400. Applications 413 include instructions for time/datestamping photographs taken through camera 405. Global positioning system(GPS) module 407 provides location data related to an animal. Shippingservices module 306 (FIG. 3) uses this location data to estimateshipping costs. The system may stamp photographs with location data inaddition to the time/date information. Applications 413 mayalternatively store location, time, and date information within aphotograph's metadata.

Cloud communication module 411 includes instructions and credentialsthat permit subscriber unit 400 to access the cloud infrastructure foragriculture exchange 100 (FIG. 1). This access is achieved through dataconnection(s) provided by WAN/LAN communications module 415. WAN/LANcommunications module includes cellular module 423 which enables accessthrough 3G, 4G, LTE, and similar (e.g., future) cellular technologies.Likewise, subscriber unit 400 is enabled with Wi-Fi, Bluetooth, and NFCcommunication through Wi-Fi/Bluetooth module 425. If a communicationslink is unavailable, processor 401 includes memory (not depicted) forstoring data until the communication link becomes available. Aspects ofdisclosed systems may communicate through an Internet of Things, LAN,WAN, PAN, CAN, MAN, WLAN, SAN, EPN, VPN, or other network of physicalobjects that enable autonomous collection and exchange of data amongmachines.

Still referring to FIG. 4, applications 413 includes functionality(through machine-readable instructions executed by processor 401) forconnecting wirelessly to described hardware package elements (e.g.,smart chute 200, biometric module 120, camera 118, weight measurementunit 203, tag reader 205, biometrics module 207, data transfer module209, detection unit 217, and scale 116). In this way, subscriber unit400 accepts animal data and user data. In some embodiments, this allowssubscriber unit 400 to serve as the collection point for product ownerdata, animal data, location data, time data, and so on. In a typicalscenario, subscriber unit 400 is a smartphone that passes data to thecloud via an Internet connection (Wi-Fi or cellular). Applications 413can gather data while not connected to the Internet, store it, andseamlessly upload it to the cloud when connectivity is restored.Applications 413 further allow the operator to assemble marketing lotsfrom animal data collected and place them for sale.

FIG. 5 depicts a user interface 500 provided through agricultureexchange 100 (FIG. 1). The user interface is presented on a display andprovides a potential buyer with an interactive way to research and buyanimals. Agriculture exchange 100 may act as an exchange accessed bymultiple (e.g., competing) service providers that each provide their ownversions of user interface 500 based on data obtained, stored, andserviced through agriculture exchange 100. In one embodiment, Web server312 (FIG. 3) provides user interface 500 to a potential buyer throughthe buyer's smart phone.

As shown, user interface 500 includes animal image 520. In someembodiments image 520 can be rotated to obtain continuousthree-dimensional viewpoints. Data for image 520 is obtained throughcamera 118 (FIG. 1), camera 211 (FIG. 2), or cameras integrated into asmart chute (e.g., smart chute 114 in FIG. 1 or smart chute 200 in FIG.2). Animal history link 502, biometrics link 504, and pedigree link 506each lead to data from animal data 322 (FIG. 3). Through these links, apotential buyer can research the animal shown in image 520. By clickingsearch link 516, a buyer is taken to a search window for entering searchcriteria. This criterion is used by search services module 342 (FIG. 3)to find relevant animals within database 344 (FIG. 3). If interested inan animal, the buyer bids on or purchases (e.g., for a fixed price) theanimal through Buy/Bid Now link 514. A purchase may be from an auctionor based upon an agreed price (e.g., buy-now price 524).

In one embodiment, Buy/Sell services module 302 (FIG. 3) serves the dataprovided in interface 500 through web server 124 using buyer interface122. Buyer interface 122 may provide data directly to a buyer's smartphone through service provider 108 (FIG. 1). As shown, interface 500includes auction time remaining 522, buy-now price 524, and current bid526. Buyer data is stored in buyer data 326 (FIG. 3). Prior to biddingon an animal or attempting to purchase an animal, a buyer enters his/herinformation through Enter Buyer Information link 518.

“Contact seller” link 508 facilitates communicating with the sellerthrough email, text, or telephone. “Seller comments” link 510 enablesbuyer/seller interactions through a question/answer forum. For example,a buyer can ask about an animal's temperament or health and other buyerscan see the resulting seller responses. Shipping info link 512 accessesthe shipping information stored in shipping data 332 and calculates ashipping cost from the animal's location to a prospective or actualbuyer. In addition, shipping info link 512 can provide a buyer access totracking information after a purchase.

In an embodiment, buy/sell services module 302 (FIG. 3) processes dataand preferences to compute a relevant score for a particular animal,uniquely calculated for a particular buyer. The potential buyer accessesthe score through score link 528 (FIG. 5). Buy/sell services module 302computes the score by processing information including: buyer shippinginformation (including animal location, buyer location, carrieravailability and required timeframe), buyer preferences determined orcomputed from buyer information (e.g., buyer data 326), and search data.Accordingly, the agriculture exchange can rank an animal for a potentialbuyer by processing stored data related to the buyer, a prospectiveanimal, and other potential animals.

FIG. 6 depicts an embodied method for conducting an agriculture exchange(e.g., agriculture exchange 100 in FIG. 1). Block 601 relates todistributing equipment to service providers and users. Equipment can besold, loaned, given, or leased to users including as examples buyers,sellers, service providers, and administrators. The services module 316(FIG. 3) facilitates record-keeping and logistics associated with block601. Hardware data 330 (FIG. 3) and leased data 336 (FIG. 3) includestracking information for the distributed equipment. The equipmentincludes special-purpose machines having proprietary information andprograms specifically for the agriculture exchange. The equipment isspecially programmed for receiving and processing data associated withlivestock assets, buyers, sellers, and vendors.

Blocks 603-611 related to receiving, storing, indexing, and updatinginformation related to buyers, sellers, vendors, animals, and searchcriteria. The components of the agricultural exchange 100 are speciallyprogrammed for receiving, processing, and transforming data from themultiple sources into usable form by agricultural exchange participants.Block 613 includes ranking animals uniquely to each buyer. Thisinformation is computed by the agriculture exchange according toinformation stored in database 344. A prospective purchase is ranked andthe ranking (e.g., score, grade) is presented to the potential buyer.Block 613 takes into account unique circumstances for a buyer includingpreferences, location, timeframe requirements, budget, past purchases,and so on. Block 615 includes presenting the potential buyer with searchresults, animal scores, and other animal information. Block 615 may beperformed by iteratively populating user interface 500 (FIG. 5). Block617 relates to processing payments to and from buyers, sellers, vendors,shippers, and service providers. Block 617 is performed by theagriculture exchange and results in a centralized system for accounting,receiving, and distribution of funds.

In disclosed systems, interfaces are driven by cloud based data/APIarchitectures organized around a universal product serial number-knownas the LIN. Each ear tag (or other unique hardware ID) is assigned aunique number (e.g., a 32 or 96-bit serial number) for a particularanimal, which is associated with the animal forever. In someembodiments, no other data is stored on the tag. Instead, all relevantdata about an animal is stored on the exchange's cloud infrastructureand identified via the LIN. The LIN allows current owners, managers, andbuyers to access historical data and enter their own as it is gatheredthrough a variety of applications and platforms.

Some components of the agriculture exchange are performed by speciallyprogrammed data processing systems that contain proprietary systems(e.g., applications, firmware, software) for receiving, processing,transforming, and communicating data for participants. Components of anexample data processing system are shown in FIG. 7. As shown, dataprocessing system 700 includes a processor 702 (e.g., a centralprocessing unit, a graphics processing unit, or both) and storage 701that includes a main memory 704 and a non-volatile memory 726. Drivemedia 722 and other components of storage 701 communicate with processor702 via bus 708. Drive media 722 includes a magnetic or solid statemachine-readable medium 722 that may have stored thereon one or moresets of instructions 724 and data structures (not depicted) embodying orutilized by any one or more of the methodologies or functions describedherein. The instructions 724 may also reside, completely or at leastpartially, within the main memory 704, within non-volatile memory 726,and/or within the processor 702 during execution thereof by the dataprocessing system 700. Data processing system 700 may further include avideo display unit 710 (e.g., a television, a liquid crystal display ora cathode ray tube) on which to display Web content, multimedia content,and input provided during collaboration sessions. Data processing system700 also includes input device 712 (e.g., a keyboard), navigation device714 (e.g., a remote control device or a mouse), signal generation device718 (e.g., a speaker) and network interface device 720. Input device 712and/or navigation device 714 (e.g., a remote control device) may includeprocessors (not shown), and further memory (not shown).

Instructions 724 may be transmitted or received over network 767 (e.g.,a multimedia content provider network) via network interface device 720using any one of a number of transfer protocols (e.g., broadcasttransmissions, HTTP).

As used herein the term “machine-readable medium” should be construed asincluding a single medium or multiple media (e.g., a centralized ordistributed database, and/or associated caches and servers) that maystore all or part of instructions 724. The term “machine-readablemedium” shall also be taken to include any medium that is capable ofstoring, encoding, or carrying a set of instructions (e.g., instructions724) for execution by a machine (e.g., data processing system 700) andthat cause the machine to perform any one or more of the methodologiesor that is capable of storing, encoding, or carrying data structuresutilized by or associated with such a set of instructions. The term“machine-readable medium” shall, accordingly, be taken to include butnot be limited to solid-state memories, optical media, and magneticmedia.

In accordance with some disclosed embodiments, data processing system700 executes instructions 724, which include instructions for providingcloud infrastructure resources, Web servers, buyer interfaces, andclient applications. Instruction 724 may include instructions forproviding buy/sell services, payment services, shipping services, dataservers, API service, lease services, commission services, searchservices, and system administration (e.g., through administration module320 in FIG. 3). Instructions 724 may include instructions for processingtransducer input and detecting the presence of an animal, determiningthe weight of an animal, reading the tag of an animal, processingphotographic images of an animal, and storing associated data.Instructions 724 may operate on processor 401, as an example, and fromoperating system 403 and applications 413. Instructions 724 may includeinstructions for processing GPS data, camera data, clock and calendardata, and tag input. Instructions 724 may include instructions forpresenting animal data, user data, seller data, and buyer data on adisplay (e.g., display 421 in FIG. 4). Instructions 724 may includeinstructions for receiving input through a keyboard or other inputdevice (e.g., a recorder). Instructions 724 may include instructions forinteracting with or implementing WAN/LAN communications modules thatfacilitate cellular, Wi-Fi, Bluetooth, and NFC and other forms ofcommunications between subscriber units, smart chutes, data acquisitionmodules, cloud based assets, service provider assets (e.g., servers) andthe like.

Referring now to FIG. 8, an agriculture exchange system 800 isillustrated that comprises an interrogator 801 for reading a tag 805affixed to live animal 809. The tag includes animal identification datashown as a QR code. Alternatively, or in addition, interrogator 801communicates using RFID technology with tag 803, which includes RFIDcircuitry 841. Interrogator 801 emits a frequency that excites RFIDcircuitry 841, which in turn emits identification data that interrogator801 receives. Camera 807 captures and stores photographs of live animal809. The photographs, identification data, and measured weight data aretransmitted to centralized server 835. Centralized server 835 includesmachine executable instructions (i.e., software instructions) stored oncomputer readable medium (e.g., a disk drive). The instructions enablecentralized server 835 to store and maintain a product data card 843 forlive animal 809. Centralized server 835 stores measured weight data,photographs, and identification data on product data card 843. As shown,system 800 includes smart animal chute 811 which isolates live animal809 and automatically obtains weight data using transducer 813. Asshown, live animal 809 is isolated using isolation unit 843 and theanimal's presence is detected using presence detector 845. Presencedetector 845 may operate using IR light, weight, or other suchtechnologies. In alternative embodiments, transducer 813 includes aweight scale, body fat sensor, water sensor, or other biometric sensorto detect live animal data. In operation of one embodiment, centralizedserver 835 receives the measured weight data, identification data, andphotographs through link 825 from subscriber unit 815. User 817 operatessubscriber unit 815 to enter additional information (e.g., notes)regarding live animal 809 through a user interface such as a keyboard orvoice transcription application. Subscriber unit 815 may be a smartphone or tablet that runs an application comprising machine readableinstructions that operate on a processor to enable communication withany combination of interrogator 801, camera 807, smart chute 811, weightscale 813, and centralized server 835. Such communication may occurthrough Wi-Fi, Bluetooth, NFC, cellular, or other wireless technologies.In various embodiments, some combination of camera 807 and interrogator801 are incorporated into subscriber unit 815. For example, subscriberunit 815 may include a QR reader for accessing identification data fromtag 805. In some embodiments, subscriber unit 815 or interrogator 801loads tag 805 or tag 803 with measured data, information from productdata card 843, photographic data, location data, or other data relevantto live animal 809.

As shown in FIG. 8, subscriber unit comprises machine executableinstructions (e.g., software such as applications, an operating system,or lower level software) stored on a computer readable medium (e.g.,memory such as ROM). The machine executable instructions enable thesubscriber unit to receive measured data (e.g., weight data) from thesmart animal chute, receive the identification data from theinterrogator, and send the measured data and identification data overcommunication link 825 to centralized server 835. Centralized server 835adds the measured data to product data card 843 for live animal 809based at least in part on the identification data.

Accordingly, embodied systems include an interrogator (e.g.,interrogator 801 separately or combined with subscriber unit 815) forobtaining identification information from an animal (e.g., live animal809). The animal's tags (e.g., tag 803 or 805) are analyzed after theanimal enters smart chute 811. Smart chute 811 mechanically isolateslive animal 809 for processing and capturing data. A subscriber unit(e.g., subscriber unit 815) in some embodiments, stores an animal'sidentification information in the subscriber unit memory, stores thesensed (i.e., measured) animal data in the subscriber unit memory,uploads the identification information to a centralized location (e.g.,centralized server 835), and similarly uploads the sensed animal data.

A centralized server (e.g., centralized server 835) receives theuploaded data, stores the uploaded data, and distributes the uploadeddata to further subscriber units (e.g., a smartphone, tablet, dataprocessing device, or networked computer) such as subscriber unit 833.In operation, user 831 might be interested in purchasing a live animaland may be directed to information on product data card 843 for liveanimal 809. Alternatively, user 831 may be a rancher that wishes tomonitor the performance (e.g., weight gain, health, etc.) of his/herherd. Still further, user 831 could be a lender at a financialinstitution that wishes to monitor the relative value of collateral on aloan, as an example. For example, if members of a herd are healthy andheavy, the collateral would be worth more. Accordingly, user 831receives the information over a graphical user interface on subscriberunit 833 through a data link with centralized server 835. Centralizedserver 835, alternatively or in addition, distributes the uploaded datato service provider 839. Service provider 839 receives product data carddata 843 from centralized server 835 over data link 837. In turn,service provider 839 provides the data over communication link 827 touser 819 (e.g., a buyer, rancher, lender, auctioneer, etc.) throughsubscriber unit 821. Subscriber unit 821 includes user interface 823(i.e., a buyer interface) that may be similar to or identical to thatshown in FIG. 5. In some embodiments, service provider 839 conducts anauction and user 831 and user 819 simultaneously receive information ontime remaining and bid activity.

The above disclosed subject matter is to be considered illustrative, andnot restrictive, and the appended claims are intended to cover all suchmodifications, enhancements, and other embodiments which fall within thetrue spirit and scope of the present disclosure. Thus, to the maximumextent allowed by law, the scope of the claimed subject matter is to bedetermined by the broadest permissible interpretation of the followingclaims and their equivalents, and shall not be restricted or limited bythe foregoing detailed description.

What is claimed:
 1. A system comprising: one or more animal tags, eachanimal tag having an animal identification data and configured to beaffixed to a live animal; a searchable database containing a productdata for each animal tag, a seller data, and a buyer data, wherein theproduct data associates the animal identification data of the animal tagto the live animal and includes an animal data for the live animal; anda server communicably coupled to the searchable database, the servercomprising a server memory and a server processor, wherein the serverprocessor stores and maintains each product data in the searchabledatabase, and receives: (1) an animal information from one or moreremote devices, and stores, indexes and updates the animal data usingthe animal information, (2) a seller information from one or more remotedevices, and stores, indexes and updates the seller data using theseller information, and (3) a buyer information from the one or moreremote devices, and stores, indexes and updates the buyer data using thebuyer information.
 2. The system of claim 1, further comprising the oneor more remote devices communicably coupled to the server, each remotedevice comprising a remote device memory and a remote device processor.3. The system of claim 2, wherein the remote device processor performsone or more functions comprising acquiring the animal data, transmittingthe animal data to the server, and monitoring a performance of the liveanimal.
 4. The system of claim 2, wherein the one or more remote devicesmonitors a relative value of collateral on a loan associated with thelive animal.
 5. The system of claim 2, wherein the live animal is sold,bought, auctioned, shipped or paid from using the remote device and theserver.
 6. The system of claim 5, wherein the server processes a paymentfor the live animal.
 7. The system of claim 1, wherein the animal datacomprises one or more of a historical data, a biometrics data, and apedigree data.
 8. The system of claim 1, wherein the animal data beginsat the association of the animal identification data of the animal tagto the live animal and extends for a life of the live animal.
 9. Thesystem of claim 8, wherein the animal data further includes a historicaldata.
 10. The system of claim 1, wherein the searchable database furthercontains a vendor data, a hardware data, a shipping data, a payment dataor a lease data.
 11. The system of claim 10, wherein the server receivesa vendor information from one of the remote devices, and stores, indexesand updates the vendor data using the vendor information.
 12. The systemof claim 1, wherein the server receives a search request containing oneor more search criteria from the one or more remote devices, searchesthe searchable database for any product data that satisfy the one ormore search criteria, retrieves one or more sets of data correspondingto the product data that satisfy the one or more search criteria, andprovides the one or more sets of data to the one or more remote devices.13. The system of claim 12, wherein the server calculates a relevancyscore based on the one or more search criteria, and provides therelevancy score to the one or more remote devices.
 14. The system ofclaim 13, wherein the relevancy score is calculated based on a buyershipping information, one or more buyer preferences and the one or moresearch criteria.
 15. The system of claim 14, wherein the buyer shippinginformation comprises an animal location, a buyer location, a carrieravailability and a required timeframe.
 16. A method comprising:providing: (1) one or more animal tags, each animal tag having an animalidentification data and configured to be affixed to a live animal, (2) asearchable database containing a product data for each animal tag, aseller data, and a buyer data, and (3) a server communicably coupled tothe searchable database, the server comprising a server memory and aserver processor; associating the animal identification data of theanimal tag to the live animal creating the product data for the animalidentification data including an animal data for the live animal usingthe server processor; storing and maintaining each product data in thesearchable database using the server processor; and receiving an animalinformation from one or more remote devices, and storing, indexing andupdating the animal data using the animal information; receiving aseller information from the one or more remote devices, and storing,indexing and updating the seller data in the searchable database usingthe seller information and the server; and receiving a buyer informationfrom one or more remote devices, and storing, indexing and updating thebuyer data in the searchable database using the buyer information andthe server.
 17. The method of claim 16, further comprising providing theone or more remote devices communicably coupled to the server, eachremote device comprising a remote device memory and a remote deviceprocessor.
 18. The method of claim 17, further comprising performing oneor more functions comprising acquiring the animal data, transmitting theanimal data to the server, and monitoring a performance of the liveanimal using the remote device processor.
 19. The method of claim 17,further comprising monitoring a relative value of collateral on a loanassociated with the live animal using the one or more remote devices.20. The method of claim 17, further comprising selling, buying,auctioning, shipping or paying for the live animal using one or moreremote devices and the server.
 21. The method of claim 20, furthercomprising processes a payment for the live animal using the server. 22.The method of claim 16, wherein the animal data comprises one or more ofa historical data, a biometrics data, and a pedigree data.
 23. Themethod of claim 16, wherein the animal data begins at the association ofthe animal identification data of the animal tag to the live animal andextends for a life of the live animal.
 24. The method of claim 23,wherein the animal data further includes a historical data.
 25. Themethod of claim 16, wherein the searchable database further contains avendor data, a hardware data, a shipping data, a payment data or a leasedata.
 26. The method of claim 25, further comprising: receiving a vendorinformation from one of the remote devices; and storing, indexing andupdating the vendor data in the searchable database using the vendorinformation and the server.
 27. The method of claim 16, furthercomprising receiving a search request containing one or more searchcriteria from the one or more remote devices; searching the searchabledatabase for any product data that satisfy the one or more searchcriteria using the server; retrieving one or more sets of datacorresponding to the product data that satisfy the one or more searchcriteria using the server; and provides the one or more sets of data tothe one or more remote devices using the server.
 28. The method of claim25, further comprising: calculating a relevancy score based on the oneor more search criteria using the server; and providing the relevancyscore to the one or more remote devices.
 29. The method of claim 28,wherein the relevancy score is calculated based on a buyer shippinginformation, one or more buyer preferences and the one or more searchcriteria.
 30. The method of claim 29, wherein the buyer shippinginformation comprises an animal location, a buyer location, a carrieravailability and a required timeframe.